#include "util/u_string.h"
#include "util/u_math.h"
-#include "main/imports.h"
+
#include "main/shaderobj.h"
#include "main/enums.h"
#include "main/mtypes.h"
class array_resize_visitor : public deref_type_updater {
public:
+ using deref_type_updater::visit;
+
unsigned num_vertices;
gl_shader_program *prog;
gl_shader_stage stage;
analyze_clip_cull_usage(struct gl_shader_program *prog,
struct gl_linked_shader *shader,
struct gl_context *ctx,
- GLuint *clip_distance_array_size,
- GLuint *cull_distance_array_size)
+ struct shader_info *info)
{
- *clip_distance_array_size = 0;
- *cull_distance_array_size = 0;
+ info->clip_distance_array_size = 0;
+ info->cull_distance_array_size = 0;
if (prog->data->Version >= (prog->IsES ? 300 : 130)) {
/* From section 7.1 (Vertex Shader Special Variables) of the
ir_variable *clip_distance_var =
shader->symbols->get_variable("gl_ClipDistance");
assert(clip_distance_var);
- *clip_distance_array_size = clip_distance_var->type->length;
+ info->clip_distance_array_size = clip_distance_var->type->length;
}
if (gl_CullDistance.found) {
ir_variable *cull_distance_var =
shader->symbols->get_variable("gl_CullDistance");
assert(cull_distance_var);
- *cull_distance_array_size = cull_distance_var->type->length;
+ info->cull_distance_array_size = cull_distance_var->type->length;
}
/* From the ARB_cull_distance spec:
*
* gl_CullDistance arrays to be larger than
* gl_MaxCombinedClipAndCullDistances.
*/
- if ((*clip_distance_array_size + *cull_distance_array_size) >
+ if ((uint32_t)(info->clip_distance_array_size + info->cull_distance_array_size) >
ctx->Const.MaxClipPlanes) {
linker_error(prog, "%s shader: the combined size of "
"'gl_ClipDistance' and 'gl_CullDistance' size cannot "
}
}
- analyze_clip_cull_usage(prog, shader, ctx,
- &shader->Program->info.clip_distance_array_size,
- &shader->Program->info.cull_distance_array_size);
+ analyze_clip_cull_usage(prog, shader, ctx, &shader->Program->info);
}
static void
if (shader == NULL)
return;
- analyze_clip_cull_usage(prog, shader, ctx,
- &shader->Program->info.clip_distance_array_size,
- &shader->Program->info.cull_distance_array_size);
+ analyze_clip_cull_usage(prog, shader, ctx, &shader->Program->info);
}
vertices_per_prim(shader->Program->info.gs.input_primitive);
prog->Geom.VerticesIn = num_vertices;
- analyze_clip_cull_usage(prog, shader, ctx,
- &shader->Program->info.clip_distance_array_size,
- &shader->Program->info.cull_distance_array_size);
+ analyze_clip_cull_usage(prog, shader, ctx, &shader->Program->info);
}
/**
bool
validate_intrastage_arrays(struct gl_shader_program *prog,
ir_variable *const var,
- ir_variable *const existing)
+ ir_variable *const existing,
+ bool match_precision)
{
/* Consider the types to be "the same" if both types are arrays
* of the same type and one of the arrays is implicitly sized.
* explicitly sized array.
*/
if (var->type->is_array() && existing->type->is_array()) {
- if ((var->type->fields.array == existing->type->fields.array) &&
+ const glsl_type *no_array_var = var->type->fields.array;
+ const glsl_type *no_array_existing = existing->type->fields.array;
+ bool type_matches;
+
+ type_matches = (match_precision ?
+ no_array_var == no_array_existing :
+ no_array_var->compare_no_precision(no_array_existing));
+
+ if (type_matches &&
((var->type->length == 0)|| (existing->type->length == 0))) {
if (var->type->length != 0) {
if ((int)var->type->length <= existing->data.max_array_access) {
* no vendor actually implemented that behavior. The 4.20
* behavior matches the implemented behavior of at least one other
* vendor, so we'll implement that for all GLSL versions.
+ * If (at least) one of these constant expressions is implicit,
+ * because it was added by glsl_zero_init, we skip the verification.
*/
if (var->constant_initializer != NULL) {
- if (existing->constant_initializer != NULL) {
+ if (existing->constant_initializer != NULL &&
+ !existing->data.is_implicit_initializer &&
+ !var->data.is_implicit_initializer) {
if (!var->constant_initializer->has_value(existing->constant_initializer)) {
linker_error(prog, "initializers for %s "
"`%s' have differing values\n",
* not have an initializer but a later instance does,
* replace the former with the later.
*/
- variables->replace_variable(existing->name, var);
+ if (!var->data.is_implicit_initializer)
+ variables->replace_variable(existing->name, var);
}
}
}
}
- if (existing->data.invariant != var->data.invariant) {
+ if (existing->data.explicit_invariant != var->data.explicit_invariant) {
linker_error(prog, "declarations for %s `%s' have "
"mismatching invariant qualifiers\n",
mode_string(var), var->name);
hash_table *temps = NULL;
if (make_copies)
- temps = _mesa_hash_table_create(NULL, _mesa_hash_pointer,
- _mesa_key_pointer_equal);
+ temps = _mesa_pointer_hash_table_create(NULL);
foreach_in_list_safe(ir_instruction, inst, instructions) {
if (inst->as_function())
*/
class array_sizing_visitor : public deref_type_updater {
public:
+ using deref_type_updater::visit;
+
array_sizing_visitor()
: mem_ctx(ralloc_context(NULL)),
- unnamed_interfaces(_mesa_hash_table_create(NULL, _mesa_hash_pointer,
- _mesa_key_pointer_equal))
+ unnamed_interfaces(_mesa_pointer_hash_table_create(NULL))
{
}
}
}
+/**
+ * Check for conflicting viewport_relative settings across shaders, and sets
+ * the value for the linked shader.
+ */
+static void
+link_layer_viewport_relative_qualifier(struct gl_shader_program *prog,
+ struct gl_program *gl_prog,
+ struct gl_shader **shader_list,
+ unsigned num_shaders)
+{
+ unsigned i;
+
+ /* Find first shader with explicit layer declaration */
+ for (i = 0; i < num_shaders; i++) {
+ if (shader_list[i]->redeclares_gl_layer) {
+ gl_prog->info.layer_viewport_relative =
+ shader_list[i]->layer_viewport_relative;
+ break;
+ }
+ }
+
+ /* Now make sure that each subsequent shader's explicit layer declaration
+ * matches the first one's.
+ */
+ for (; i < num_shaders; i++) {
+ if (shader_list[i]->redeclares_gl_layer &&
+ shader_list[i]->layer_viewport_relative !=
+ gl_prog->info.layer_viewport_relative) {
+ linker_error(prog, "all gl_Layer redeclarations must have identical "
+ "viewport_relative settings");
+ }
+ }
+}
+
/**
* Performs the cross-validation of tessellation control shader vertices and
* layout qualifiers for the attached tessellation control shaders,
shader->SampleInterlockOrdered;
linked_shader->Program->info.fs.sample_interlock_unordered |=
shader->SampleInterlockUnordered;
-
linked_shader->Program->sh.fs.BlendSupport |= shader->BlendSupport;
}
+
+ linked_shader->Program->info.fs.pixel_center_integer = pixel_center_integer;
+ linked_shader->Program->info.fs.origin_upper_left = origin_upper_left;
}
/**
/**
- * Perform cross-validation of compute shader local_size_{x,y,z} layout
- * qualifiers for the attached compute shaders, and propagate them to the
- * linked CS and linked shader program.
+ * Perform cross-validation of compute shader local_size_{x,y,z} layout and
+ * derivative arrangement qualifiers for the attached compute shaders, and
+ * propagate them to the linked CS and linked shader program.
*/
static void
link_cs_input_layout_qualifiers(struct gl_shader_program *prog,
gl_prog->info.cs.local_size_variable = false;
+ gl_prog->info.cs.derivative_group = DERIVATIVE_GROUP_NONE;
+
/* From the ARB_compute_shader spec, in the section describing local size
* declarations:
*
}
gl_prog->info.cs.local_size_variable = true;
}
+
+ enum gl_derivative_group group = shader->info.Comp.DerivativeGroup;
+ if (group != DERIVATIVE_GROUP_NONE) {
+ if (gl_prog->info.cs.derivative_group != DERIVATIVE_GROUP_NONE &&
+ gl_prog->info.cs.derivative_group != group) {
+ linker_error(prog, "compute shader defined with conflicting "
+ "derivative groups\n");
+ return;
+ }
+ gl_prog->info.cs.derivative_group = group;
+ }
}
/* Just do the intrastage -> interstage propagation right now,
"local group size\n");
return;
}
+
+ if (gl_prog->info.cs.derivative_group == DERIVATIVE_GROUP_QUADS) {
+ if (gl_prog->info.cs.local_size[0] % 2 != 0) {
+ linker_error(prog, "derivative_group_quadsNV must be used with a "
+ "local group size whose first dimension "
+ "is a multiple of 2\n");
+ return;
+ }
+ if (gl_prog->info.cs.local_size[1] % 2 != 0) {
+ linker_error(prog, "derivative_group_quadsNV must be used with a local"
+ "group size whose second dimension "
+ "is a multiple of 2\n");
+ return;
+ }
+ } else if (gl_prog->info.cs.derivative_group == DERIVATIVE_GROUP_LINEAR) {
+ if ((gl_prog->info.cs.local_size[0] *
+ gl_prog->info.cs.local_size[1] *
+ gl_prog->info.cs.local_size[2]) % 4 != 0) {
+ linker_error(prog, "derivative_group_linearNV must be used with a "
+ "local group size whose total number of invocations "
+ "is a multiple of 4\n");
+ return;
+ }
+ }
}
/**
/* Create program and attach it to the linked shader */
struct gl_program *gl_prog =
- ctx->Driver.NewProgram(ctx,
- _mesa_shader_stage_to_program(shader_list[0]->Stage),
- prog->Name, false);
+ ctx->Driver.NewProgram(ctx, shader_list[0]->Stage, prog->Name, false);
if (!gl_prog) {
prog->data->LinkStatus = LINKING_FAILURE;
_mesa_delete_linked_shader(ctx, linked);
link_bindless_layout_qualifiers(prog, shader_list, num_shaders);
+ link_layer_viewport_relative_qualifier(prog, gl_prog, shader_list, num_shaders);
+
populate_symbol_table(linked, shader_list[0]->symbols);
/* The pointer to the main function in the final linked shader (i.e., the
link_uniform_blocks(mem_ctx, ctx, prog, linked, &ubo_blocks,
&num_ubo_blocks, &ssbo_blocks, &num_ssbo_blocks);
+ const unsigned max_uniform_blocks =
+ ctx->Const.Program[linked->Stage].MaxUniformBlocks;
+ if (num_ubo_blocks > max_uniform_blocks) {
+ linker_error(prog, "Too many %s uniform blocks (%d/%d)\n",
+ _mesa_shader_stage_to_string(linked->Stage),
+ num_ubo_blocks, max_uniform_blocks);
+ }
+
+ const unsigned max_shader_storage_blocks =
+ ctx->Const.Program[linked->Stage].MaxShaderStorageBlocks;
+ if (num_ssbo_blocks > max_shader_storage_blocks) {
+ linker_error(prog, "Too many %s shader storage blocks (%d/%d)\n",
+ _mesa_shader_stage_to_string(linked->Stage),
+ num_ssbo_blocks, max_shader_storage_blocks);
+ }
+
if (!prog->data->LinkStatus) {
_mesa_delete_linked_shader(ctx, linked);
return NULL;
for (unsigned i = 0; i < num_ubo_blocks; i++) {
linked->Program->sh.UniformBlocks[i] = &ubo_blocks[i];
}
+ linked->Program->sh.NumUniformBlocks = num_ubo_blocks;
linked->Program->info.num_ubos = num_ubo_blocks;
/* Copy ssbo blocks to linked shader list */
#define SAFE_MASK_FROM_INDEX(i) (((i) >= 32) ? ~0 : ((1 << (i)) - 1))
/**
- * Assign locations for either VS inputs or FS outputs
+ * Assign locations for either VS inputs or FS outputs.
*
- * \param mem_ctx Temporary ralloc context used for linking
- * \param prog Shader program whose variables need locations assigned
- * \param constants Driver specific constant values for the program.
- * \param target_index Selector for the program target to receive location
- * assignmnets. Must be either \c MESA_SHADER_VERTEX or
- * \c MESA_SHADER_FRAGMENT.
+ * \param mem_ctx Temporary ralloc context used for linking.
+ * \param prog Shader program whose variables need locations
+ * assigned.
+ * \param constants Driver specific constant values for the program.
+ * \param target_index Selector for the program target to receive location
+ * assignmnets. Must be either \c MESA_SHADER_VERTEX or
+ * \c MESA_SHADER_FRAGMENT.
+ * \param do_assignment Whether we are actually marking the assignment or we
+ * are just doing a dry-run checking.
*
* \return
- * If locations are successfully assigned, true is returned. Otherwise an
- * error is emitted to the shader link log and false is returned.
+ * If locations are (or can be, in case of dry-running) successfully assigned,
+ * true is returned. Otherwise an error is emitted to the shader link log and
+ * false is returned.
*/
static bool
assign_attribute_or_color_locations(void *mem_ctx,
gl_shader_program *prog,
struct gl_constants *constants,
- unsigned target_index)
+ unsigned target_index,
+ bool do_assignment)
{
/* Maximum number of generic locations. This corresponds to either the
* maximum number of draw buffers or the maximum number of generic
num_attr++;
}
+ if (!do_assignment)
+ return true;
+
if (target_index == MESA_SHADER_VERTEX) {
unsigned total_attribs_size =
util_bitcount(used_locations & SAFE_MASK_FROM_INDEX(max_index)) +
const unsigned idx = var->data.location - VARYING_SLOT_VAR0;
if (explicit_locations[idx][var->data.location_frac] == NULL)
explicit_locations[idx][var->data.location_frac] = var;
+
+ /* Always match TCS outputs. They are shared by all invocations
+ * within a patch and can be used as shared memory.
+ */
+ if (producer->Stage == MESA_SHADER_TESS_CTRL)
+ var->data.is_unmatched_generic_inout = 0;
}
}
}
}
-/**
- * Validate the resources used by a program versus the implementation limits
- */
-static void
-check_resources(struct gl_context *ctx, struct gl_shader_program *prog)
-{
- unsigned total_uniform_blocks = 0;
- unsigned total_shader_storage_blocks = 0;
-
- for (unsigned i = 0; i < MESA_SHADER_STAGES; i++) {
- struct gl_linked_shader *sh = prog->_LinkedShaders[i];
-
- if (sh == NULL)
- continue;
-
- if (sh->Program->info.num_textures >
- ctx->Const.Program[i].MaxTextureImageUnits) {
- linker_error(prog, "Too many %s shader texture samplers\n",
- _mesa_shader_stage_to_string(i));
- }
-
- if (sh->num_uniform_components >
- ctx->Const.Program[i].MaxUniformComponents) {
- if (ctx->Const.GLSLSkipStrictMaxUniformLimitCheck) {
- linker_warning(prog, "Too many %s shader default uniform block "
- "components, but the driver will try to optimize "
- "them out; this is non-portable out-of-spec "
- "behavior\n",
- _mesa_shader_stage_to_string(i));
- } else {
- linker_error(prog, "Too many %s shader default uniform block "
- "components\n",
- _mesa_shader_stage_to_string(i));
- }
- }
-
- if (sh->num_combined_uniform_components >
- ctx->Const.Program[i].MaxCombinedUniformComponents) {
- if (ctx->Const.GLSLSkipStrictMaxUniformLimitCheck) {
- linker_warning(prog, "Too many %s shader uniform components, "
- "but the driver will try to optimize them out; "
- "this is non-portable out-of-spec behavior\n",
- _mesa_shader_stage_to_string(i));
- } else {
- linker_error(prog, "Too many %s shader uniform components\n",
- _mesa_shader_stage_to_string(i));
- }
- }
-
- total_shader_storage_blocks += sh->Program->info.num_ssbos;
- total_uniform_blocks += sh->Program->info.num_ubos;
-
- const unsigned max_uniform_blocks =
- ctx->Const.Program[i].MaxUniformBlocks;
- if (max_uniform_blocks < sh->Program->info.num_ubos) {
- linker_error(prog, "Too many %s uniform blocks (%d/%d)\n",
- _mesa_shader_stage_to_string(i),
- sh->Program->info.num_ubos, max_uniform_blocks);
- }
-
- const unsigned max_shader_storage_blocks =
- ctx->Const.Program[i].MaxShaderStorageBlocks;
- if (max_shader_storage_blocks < sh->Program->info.num_ssbos) {
- linker_error(prog, "Too many %s shader storage blocks (%d/%d)\n",
- _mesa_shader_stage_to_string(i),
- sh->Program->info.num_ssbos, max_shader_storage_blocks);
- }
- }
-
- if (total_uniform_blocks > ctx->Const.MaxCombinedUniformBlocks) {
- linker_error(prog, "Too many combined uniform blocks (%d/%d)\n",
- total_uniform_blocks, ctx->Const.MaxCombinedUniformBlocks);
- }
-
- if (total_shader_storage_blocks > ctx->Const.MaxCombinedShaderStorageBlocks) {
- linker_error(prog, "Too many combined shader storage blocks (%d/%d)\n",
- total_shader_storage_blocks,
- ctx->Const.MaxCombinedShaderStorageBlocks);
- }
-
- for (unsigned i = 0; i < prog->data->NumUniformBlocks; i++) {
- if (prog->data->UniformBlocks[i].UniformBufferSize >
- ctx->Const.MaxUniformBlockSize) {
- linker_error(prog, "Uniform block %s too big (%d/%d)\n",
- prog->data->UniformBlocks[i].Name,
- prog->data->UniformBlocks[i].UniformBufferSize,
- ctx->Const.MaxUniformBlockSize);
- }
- }
-
- for (unsigned i = 0; i < prog->data->NumShaderStorageBlocks; i++) {
- if (prog->data->ShaderStorageBlocks[i].UniformBufferSize >
- ctx->Const.MaxShaderStorageBlockSize) {
- linker_error(prog, "Shader storage block %s too big (%d/%d)\n",
- prog->data->ShaderStorageBlocks[i].Name,
- prog->data->ShaderStorageBlocks[i].UniformBufferSize,
- ctx->Const.MaxShaderStorageBlockSize);
- }
- }
-}
-
-static void
-link_calculate_subroutine_compat(struct gl_shader_program *prog)
-{
- unsigned mask = prog->data->linked_stages;
- while (mask) {
- const int i = u_bit_scan(&mask);
- struct gl_program *p = prog->_LinkedShaders[i]->Program;
-
- for (unsigned j = 0; j < p->sh.NumSubroutineUniformRemapTable; j++) {
- if (p->sh.SubroutineUniformRemapTable[j] == INACTIVE_UNIFORM_EXPLICIT_LOCATION)
- continue;
-
- struct gl_uniform_storage *uni = p->sh.SubroutineUniformRemapTable[j];
-
- if (!uni)
- continue;
-
- int count = 0;
- if (p->sh.NumSubroutineFunctions == 0) {
- linker_error(prog, "subroutine uniform %s defined but no valid functions found\n", uni->type->name);
- continue;
- }
- for (unsigned f = 0; f < p->sh.NumSubroutineFunctions; f++) {
- struct gl_subroutine_function *fn = &p->sh.SubroutineFunctions[f];
- for (int k = 0; k < fn->num_compat_types; k++) {
- if (fn->types[k] == uni->type) {
- count++;
- break;
- }
- }
- }
- uni->num_compatible_subroutines = count;
- }
- }
-}
-
-static void
-check_subroutine_resources(struct gl_shader_program *prog)
-{
- unsigned mask = prog->data->linked_stages;
- while (mask) {
- const int i = u_bit_scan(&mask);
- struct gl_program *p = prog->_LinkedShaders[i]->Program;
-
- if (p->sh.NumSubroutineUniformRemapTable > MAX_SUBROUTINE_UNIFORM_LOCATIONS) {
- linker_error(prog, "Too many %s shader subroutine uniforms\n",
- _mesa_shader_stage_to_string(i));
- }
- }
-}
/**
* Validate shader image resources.
*/
struct gl_linked_shader *sh = prog->_LinkedShaders[i];
if (sh) {
- if (sh->Program->info.num_images > ctx->Const.Program[i].MaxImageUniforms)
- linker_error(prog, "Too many %s shader image uniforms (%u > %u)\n",
- _mesa_shader_stage_to_string(i),
- sh->Program->info.num_images,
- ctx->Const.Program[i].MaxImageUniforms);
-
total_image_units += sh->Program->info.num_images;
total_shader_storage_blocks += sh->Program->info.num_ssbos;
prog->NumExplicitUniformLocations = entries_total;
}
-static bool
-should_add_buffer_variable(struct gl_shader_program *shProg,
- GLenum type, const char *name)
-{
- bool found_interface = false;
- unsigned block_name_len = 0;
- const char *block_name_dot = strchr(name, '.');
-
- /* These rules only apply to buffer variables. So we return
- * true for the rest of types.
- */
- if (type != GL_BUFFER_VARIABLE)
- return true;
-
- for (unsigned i = 0; i < shProg->data->NumShaderStorageBlocks; i++) {
- const char *block_name = shProg->data->ShaderStorageBlocks[i].Name;
- block_name_len = strlen(block_name);
-
- const char *block_square_bracket = strchr(block_name, '[');
- if (block_square_bracket) {
- /* The block is part of an array of named interfaces,
- * for the name comparison we ignore the "[x]" part.
- */
- block_name_len -= strlen(block_square_bracket);
- }
-
- if (block_name_dot) {
- /* Check if the variable name starts with the interface
- * name. The interface name (if present) should have the
- * length than the interface block name we are comparing to.
- */
- unsigned len = strlen(name) - strlen(block_name_dot);
- if (len != block_name_len)
- continue;
- }
-
- if (strncmp(block_name, name, block_name_len) == 0) {
- found_interface = true;
- break;
- }
- }
-
- /* We remove the interface name from the buffer variable name,
- * including the dot that follows it.
- */
- if (found_interface)
- name = name + block_name_len + 1;
-
- /* The ARB_program_interface_query spec says:
- *
- * "For an active shader storage block member declared as an array, an
- * entry will be generated only for the first array element, regardless
- * of its type. For arrays of aggregate types, the enumeration rules
- * are applied recursively for the single enumerated array element."
- */
- const char *struct_first_dot = strchr(name, '.');
- const char *first_square_bracket = strchr(name, '[');
-
- /* The buffer variable is on top level and it is not an array */
- if (!first_square_bracket) {
- return true;
- /* The shader storage block member is a struct, then generate the entry */
- } else if (struct_first_dot && struct_first_dot < first_square_bracket) {
- return true;
- } else {
- /* Shader storage block member is an array, only generate an entry for the
- * first array element.
- */
- if (strncmp(first_square_bracket, "[0]", 3) == 0)
- return true;
- }
-
- return false;
-}
-
/* Function checks if a variable var is a packed varying and
* if given name is part of packed varying's list.
*
return true;
}
-static char*
-get_top_level_name(const char *name)
-{
- const char *first_dot = strchr(name, '.');
- const char *first_square_bracket = strchr(name, '[');
- int name_size = 0;
-
- /* The ARB_program_interface_query spec says:
- *
- * "For the property TOP_LEVEL_ARRAY_SIZE, a single integer identifying
- * the number of active array elements of the top-level shader storage
- * block member containing to the active variable is written to
- * <params>. If the top-level block member is not declared as an
- * array, the value one is written to <params>. If the top-level block
- * member is an array with no declared size, the value zero is written
- * to <params>."
- */
-
- /* The buffer variable is on top level.*/
- if (!first_square_bracket && !first_dot)
- name_size = strlen(name);
- else if ((!first_square_bracket ||
- (first_dot && first_dot < first_square_bracket)))
- name_size = first_dot - name;
- else
- name_size = first_square_bracket - name;
-
- return strndup(name, name_size);
-}
-
-static char*
-get_var_name(const char *name)
-{
- const char *first_dot = strchr(name, '.');
-
- if (!first_dot)
- return strdup(name);
-
- return strndup(first_dot+1, strlen(first_dot) - 1);
-}
-
-static bool
-is_top_level_shader_storage_block_member(const char* name,
- const char* interface_name,
- const char* field_name)
-{
- bool result = false;
-
- /* If the given variable is already a top-level shader storage
- * block member, then return array_size = 1.
- * We could have two possibilities: if we have an instanced
- * shader storage block or not instanced.
- *
- * For the first, we check create a name as it was in top level and
- * compare it with the real name. If they are the same, then
- * the variable is already at top-level.
- *
- * Full instanced name is: interface name + '.' + var name +
- * NULL character
- */
- int name_length = strlen(interface_name) + 1 + strlen(field_name) + 1;
- char *full_instanced_name = (char *) calloc(name_length, sizeof(char));
- if (!full_instanced_name) {
- fprintf(stderr, "%s: Cannot allocate space for name\n", __func__);
- return false;
- }
-
- util_snprintf(full_instanced_name, name_length, "%s.%s",
- interface_name, field_name);
-
- /* Check if its top-level shader storage block member of an
- * instanced interface block, or of a unnamed interface block.
- */
- if (strcmp(name, full_instanced_name) == 0 ||
- strcmp(name, field_name) == 0)
- result = true;
-
- free(full_instanced_name);
- return result;
-}
-
-static int
-get_array_size(struct gl_uniform_storage *uni, const glsl_struct_field *field,
- char *interface_name, char *var_name)
-{
- /* The ARB_program_interface_query spec says:
- *
- * "For the property TOP_LEVEL_ARRAY_SIZE, a single integer identifying
- * the number of active array elements of the top-level shader storage
- * block member containing to the active variable is written to
- * <params>. If the top-level block member is not declared as an
- * array, the value one is written to <params>. If the top-level block
- * member is an array with no declared size, the value zero is written
- * to <params>."
- */
- if (is_top_level_shader_storage_block_member(uni->name,
- interface_name,
- var_name))
- return 1;
- else if (field->type->is_unsized_array())
- return 0;
- else if (field->type->is_array())
- return field->type->length;
-
- return 1;
-}
-
-static int
-get_array_stride(struct gl_context *ctx, struct gl_uniform_storage *uni,
- const glsl_type *iface, const glsl_struct_field *field,
- char *interface_name, char *var_name)
-{
- /* The ARB_program_interface_query spec says:
- *
- * "For the property TOP_LEVEL_ARRAY_STRIDE, a single integer
- * identifying the stride between array elements of the top-level
- * shader storage block member containing the active variable is
- * written to <params>. For top-level block members declared as
- * arrays, the value written is the difference, in basic machine units,
- * between the offsets of the active variable for consecutive elements
- * in the top-level array. For top-level block members not declared as
- * an array, zero is written to <params>."
- */
- if (field->type->is_array()) {
- const enum glsl_matrix_layout matrix_layout =
- glsl_matrix_layout(field->matrix_layout);
- bool row_major = matrix_layout == GLSL_MATRIX_LAYOUT_ROW_MAJOR;
- const glsl_type *array_type = field->type->fields.array;
-
- if (is_top_level_shader_storage_block_member(uni->name,
- interface_name,
- var_name))
- return 0;
-
- if (GLSL_INTERFACE_PACKING_STD140 ==
- iface->
- get_internal_ifc_packing(ctx->Const.UseSTD430AsDefaultPacking)) {
- if (array_type->is_record() || array_type->is_array())
- return glsl_align(array_type->std140_size(row_major), 16);
- else
- return MAX2(array_type->std140_base_alignment(row_major), 16);
- } else {
- return array_type->std430_array_stride(row_major);
- }
- }
- return 0;
-}
-
-static void
-calculate_array_size_and_stride(struct gl_context *ctx,
- struct gl_shader_program *shProg,
- struct gl_uniform_storage *uni)
-{
- int block_index = uni->block_index;
- int array_size = -1;
- int array_stride = -1;
- char *var_name = get_top_level_name(uni->name);
- char *interface_name =
- get_top_level_name(uni->is_shader_storage ?
- shProg->data->ShaderStorageBlocks[block_index].Name :
- shProg->data->UniformBlocks[block_index].Name);
-
- if (strcmp(var_name, interface_name) == 0) {
- /* Deal with instanced array of SSBOs */
- char *temp_name = get_var_name(uni->name);
- if (!temp_name) {
- linker_error(shProg, "Out of memory during linking.\n");
- goto write_top_level_array_size_and_stride;
- }
- free(var_name);
- var_name = get_top_level_name(temp_name);
- free(temp_name);
- if (!var_name) {
- linker_error(shProg, "Out of memory during linking.\n");
- goto write_top_level_array_size_and_stride;
- }
- }
-
- for (unsigned i = 0; i < MESA_SHADER_STAGES; i++) {
- const gl_linked_shader *sh = shProg->_LinkedShaders[i];
- if (sh == NULL)
- continue;
-
- foreach_in_list(ir_instruction, node, sh->ir) {
- ir_variable *var = node->as_variable();
- if (!var || !var->get_interface_type() ||
- var->data.mode != ir_var_shader_storage)
- continue;
-
- const glsl_type *iface = var->get_interface_type();
-
- if (strcmp(interface_name, iface->name) != 0)
- continue;
-
- for (unsigned i = 0; i < iface->length; i++) {
- const glsl_struct_field *field = &iface->fields.structure[i];
- if (strcmp(field->name, var_name) != 0)
- continue;
-
- array_stride = get_array_stride(ctx, uni, iface, field,
- interface_name, var_name);
- array_size = get_array_size(uni, field, interface_name, var_name);
- goto write_top_level_array_size_and_stride;
- }
- }
- }
-write_top_level_array_size_and_stride:
- free(interface_name);
- free(var_name);
- uni->top_level_array_stride = array_stride;
- uni->top_level_array_size = array_size;
-}
-
/**
* Builds up a list of program resources that point to existing
* resource data.
*/
void
build_program_resource_list(struct gl_context *ctx,
- struct gl_shader_program *shProg)
+ struct gl_shader_program *shProg,
+ bool add_packed_varyings_only)
{
/* Rebuild resource list. */
if (shProg->data->ProgramResourceList) {
if (input_stage == MESA_SHADER_STAGES && output_stage == 0)
return;
- struct set *resource_set = _mesa_set_create(NULL,
- _mesa_hash_pointer,
- _mesa_key_pointer_equal);
+ struct set *resource_set = _mesa_pointer_set_create(NULL);
/* Program interface needs to expose varyings in case of SSO. */
if (shProg->SeparateShader) {
return;
}
+ if (add_packed_varyings_only) {
+ _mesa_set_destroy(resource_set, NULL);
+ return;
+ }
+
if (!add_fragdata_arrays(ctx, shProg, resource_set))
return;
}
}
+ int top_level_array_base_offset = -1;
+ int top_level_array_size_in_bytes = -1;
+ int second_element_offset = -1;
+ int buffer_block_index = -1;
+
/* Add uniforms from uniform storage. */
for (unsigned i = 0; i < shProg->data->NumUniformStorage; i++) {
/* Do not add uniforms internally used by Mesa. */
if (shProg->data->UniformStorage[i].hidden)
continue;
- uint8_t stageref =
- build_stageref(shProg, shProg->data->UniformStorage[i].name,
- ir_var_uniform);
-
- /* Add stagereferences for uniforms in a uniform block. */
bool is_shader_storage =
shProg->data->UniformStorage[i].is_shader_storage;
- int block_index = shProg->data->UniformStorage[i].block_index;
- if (block_index != -1) {
- stageref |= is_shader_storage ?
- shProg->data->ShaderStorageBlocks[block_index].stageref :
- shProg->data->UniformBlocks[block_index].stageref;
- }
-
GLenum type = is_shader_storage ? GL_BUFFER_VARIABLE : GL_UNIFORM;
- if (!should_add_buffer_variable(shProg, type,
- shProg->data->UniformStorage[i].name))
+ if (!link_util_should_add_buffer_variable(shProg,
+ &shProg->data->UniformStorage[i],
+ top_level_array_base_offset,
+ top_level_array_size_in_bytes,
+ second_element_offset,
+ buffer_block_index))
continue;
if (is_shader_storage) {
- calculate_array_size_and_stride(ctx, shProg,
- &shProg->data->UniformStorage[i]);
+ /* From the OpenGL 4.6 specification, 7.3.1.1 Naming Active Resources:
+ *
+ * "For an active shader storage block member declared as an array
+ * of an aggregate type, an entry will be generated only for the
+ * first array element, regardless of its type. Such block members
+ * are referred to as top-level arrays. If the block member is an
+ * aggregate type, the enumeration rules are then applied
+ * recursively."
+ *
+ * Below we update our tracking values used by
+ * link_util_should_add_buffer_variable(). We only want to reset the
+ * offsets once we have moved past the first element.
+ */
+ if (shProg->data->UniformStorage[i].offset >= second_element_offset) {
+ top_level_array_base_offset =
+ shProg->data->UniformStorage[i].offset;
+
+ top_level_array_size_in_bytes =
+ shProg->data->UniformStorage[i].top_level_array_size *
+ shProg->data->UniformStorage[i].top_level_array_stride;
+
+ /* Set or reset the second element offset. For non arrays this
+ * will be set to -1.
+ */
+ second_element_offset = top_level_array_size_in_bytes ?
+ top_level_array_base_offset +
+ shProg->data->UniformStorage[i].top_level_array_stride : -1;
+ }
+
+ buffer_block_index = shProg->data->UniformStorage[i].block_index;
}
+ uint8_t stageref = shProg->data->UniformStorage[i].active_shader_mask;
if (!link_util_add_program_resource(shProg, resource_set, type,
&shProg->data->UniformStorage[i], stageref))
return;
link_and_validate_uniforms(struct gl_context *ctx,
struct gl_shader_program *prog)
{
+ assert(!ctx->Const.UseNIRGLSLLinker);
+
update_array_sizes(prog);
link_assign_uniform_locations(prog, ctx);
- link_assign_atomic_counter_resources(ctx, prog);
- link_calculate_subroutine_compat(prog);
- check_resources(ctx, prog);
- check_subroutine_resources(prog);
+ if (prog->data->LinkStatus == LINKING_FAILURE)
+ return;
+
+ link_util_calculate_subroutine_compat(prog);
+ link_util_check_uniform_resources(ctx, prog);
+ link_util_check_subroutine_resources(prog);
check_image_resources(ctx, prog);
+ link_assign_atomic_counter_resources(ctx, prog);
link_check_atomic_counter_resources(ctx, prog);
}
}
if (!assign_attribute_or_color_locations(mem_ctx, prog, &ctx->Const,
- MESA_SHADER_VERTEX)) {
+ MESA_SHADER_VERTEX, true)) {
return false;
}
if (!assign_attribute_or_color_locations(mem_ctx, prog, &ctx->Const,
- MESA_SHADER_FRAGMENT)) {
+ MESA_SHADER_FRAGMENT, true)) {
return false;
}
if (!link_varyings(prog, first, last, ctx, mem_ctx))
return false;
- link_and_validate_uniforms(ctx, prog);
+ if (!ctx->Const.UseNIRGLSLLinker)
+ link_and_validate_uniforms(ctx, prog);
if (!prog->data->LinkStatus)
return false;
prev = i;
}
- /* The cross validation of outputs/inputs above validates explicit locations
- * but for SSO programs we need to do this also for the inputs in the
- * first stage and outputs of the last stage included in the program, since
- * there is no cross validation for these.
+ /* The cross validation of outputs/inputs above validates interstage
+ * explicit locations. We need to do this also for the inputs in the first
+ * stage and outputs of the last stage included in the program, since there
+ * is no cross validation for these.
*/
- if (prog->SeparateShader)
- validate_sso_explicit_locations(ctx, prog,
- (gl_shader_stage) first,
- (gl_shader_stage) last);
+ validate_first_and_last_interface_explicit_locations(ctx, prog,
+ (gl_shader_stage) first,
+ (gl_shader_stage) last);
/* Cross-validate uniform blocks between shader stages */
validate_interstage_uniform_blocks(prog, prog->_LinkedShaders);
lower_tess_level(prog->_LinkedShaders[i]);
}
+ /* Section 13.46 (Vertex Attribute Aliasing) of the OpenGL ES 3.2
+ * specification says:
+ *
+ * "In general, the behavior of GLSL ES should not depend on compiler
+ * optimizations which might be implementation-dependent. Name matching
+ * rules in most languages, including C++ from which GLSL ES is derived,
+ * are based on declarations rather than use.
+ *
+ * RESOLUTION: The existence of aliasing is determined by declarations
+ * present after preprocessing."
+ *
+ * Because of this rule, we do a 'dry-run' of attribute assignment for
+ * vertex shader inputs here.
+ */
+ if (prog->IsES && i == MESA_SHADER_VERTEX) {
+ if (!assign_attribute_or_color_locations(mem_ctx, prog, &ctx->Const,
+ MESA_SHADER_VERTEX, false)) {
+ goto done;
+ }
+ }
+
/* Call opts before lowering const arrays to uniforms so we can const
* propagate any elements accessed directly.
*/
linker_optimisation_loop(ctx, prog->_LinkedShaders[i]->ir, i);
/* Call opts after lowering const arrays to copy propagate things. */
- if (lower_const_arrays_to_uniforms(prog->_LinkedShaders[i]->ir, i))
+ if (ctx->Const.GLSLLowerConstArrays &&
+ lower_const_arrays_to_uniforms(prog->_LinkedShaders[i]->ir, i,
+ ctx->Const.Program[i].MaxUniformComponents))
linker_optimisation_loop(ctx, prog->_LinkedShaders[i]->ir, i);
- propagate_invariance(prog->_LinkedShaders[i]->ir);
}
/* Validation for special cases where we allow sampler array indexing